Authors
Weikai Chen, Jingxuan Wang, Shaoying Chen, Dian Meng, Yu Mu, Hui Feng, Lugang Zhang, Li Guo
Published in
Nature plants. Oct 10, 2025. Epub Oct 10, 2025.
Abstract
The centromere paradox, in which functionally conserved centromeres exhibit rapid evolution, has long intrigued geneticists and evolutionary biologists. Despite its importance, the centromeric landscape remains poorly understood due to the lack of complete assemblies. Here we dissect the dynamic evolution of Brassica centromeres by generating telomere-to-telomere genome assemblies from seven morphotypes of B. rapa (AA) and the two tetraploids B. juncea (AABB) and B. napus (AACC). Pan-centromere analysis reveals that Brassica centromeres are extensively invaded by retrotransposons and show remarkable diversity in size and structure. While A- and C-genome centromeres feature distinct patterns of satellites, B-genome centromeres are devoid of satellites. The centromeric satellite expansion in the C-genome is reminiscent of the layered expansions observed in human centromeres. Accordingly, we propose a working model of centromere evolution reconstructing the key evolutionary events leading to current Brassica centromere structures. These insights will illuminate plant centromere evolution and guide the design of crop synthetic chromosomes.
PMID:
41073759
Bibliographic data and abstract were imported from PubMed on 11 Oct 2025.
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